Two-Dimensional Infrared (2D IR) Spectroscopy: Theory and Applications

A novel concept in vibrational spectroscopy called two-dimensional infrared (2D IR) spectroscopy is described. In 2D IR, a spectrum defined by two independent wavenumbers is generated by a cross-correlation analysis of dynamic fluctuations of IR signals induced by an external perturbation. 2D IR spectra are especially suited for elucidating various chemical interactions among functional groups. Notable features of the 2D IR approach are: simplification of complex spectra consisting of many overlapped peaks; enhancement of spectral resolution by spreading peaks over the second dimension; and establishment of unambiguous assignments through correlation analysis of bands selectively coupled by various interaction mechanisms. The procedure for generating 2D IR correlation spectra and the properties of the 2D spectra are discussed in detail. Examples of 2D IR spectra are presented for atactic polystyrene and the proteinacious component of human stratum corneum to demonstrate the utility of this technique.

[1]  Isao Noda,et al.  Two-dimensional infrared spectroscopy , 1989 .

[2]  J. L. Chao,et al.  Time-Resolved Spectroscopy Using Step-Scan Fourier Transform Interferometry , 1989 .

[3]  A. E. Dowrey,et al.  A Spectrometer for Measuring Time-Resolved Infrared Linear Dichroism Induced by a Small-Amplitude Oscillatory Strain , 1988 .

[4]  A. E. Dowrey,et al.  Two-dimensional infrared (2D IR) spectroscopy. A new tool for interpreting infrared spectra , 1988 .

[5]  Curtis Marcott,et al.  Characterization of Polymers Using Polarization-Modulation Infrared Techniques: Dynamic Infrared Linear Dichroism (DIRLD) Spectroscopy , 1987 .

[6]  Hatsuo Ishida,et al.  Fourier transform infrared characterization of polymers , 1987 .

[7]  R. Wool,et al.  FT-IR study of orientation relaxation in uniaxially oriented monodisperse atactic polystyrenes , 1986 .

[8]  H. Kawai,et al.  Time-resolved detection of x-ray scattering for studies of relaxation phenomena , 1986 .

[9]  J. Bandekar,et al.  Vibrational spectroscopy and conformation of peptides, polypeptides, and proteins. , 1986, Advances in protein chemistry.

[10]  M. Poliakoff,et al.  Fast time-resolved FTIR detection of short-lived photochemical transient species in solution: a direct comparison with IR laser spectroscopy , 1985 .

[11]  D. Porschke Effects of Electric Fields on Biopolymers , 1985 .

[12]  D. Turner Basic two-dimensional NMR , 1985 .

[13]  H. Siesler Rheo-optical Fourier-Transform , 1984 .

[14]  S. Hsu,et al.  Spectroscopic study of the electric field induced microstructural changes in poly(vinylidene fluoride) , 1984 .

[15]  H. Siesler Rheo-optical Fourier-Transform infrared spectroscopy: Vibrational spectra and mechanical properties of polymers , 1984 .

[16]  R. Farris,et al.  Deformation Studies of Polymers by Fourier Transform Infrared Spectroscopy II: Mechanical Stretcher and its Interface to the Spectrometer , 1984 .

[17]  T. Kyu,et al.  Dynamic small‐angle x‐ray scattering from crystalline polymers , 1983 .

[18]  H. Günther,et al.  Modern Pulse Methods in High‐Resolution NMR Spectroscopy , 1983 .

[19]  B. Blümich,et al.  Multidimensional spectroscopy: I. Perturbation theory , 1983 .

[20]  B. Blümich Multi-dimensional spectroscopy , 1983 .

[21]  A. E. Dowrey,et al.  Dynamic infrared linear dichroism of polymer films under oscillatory deformation , 1983 .

[22]  B. Blümich,et al.  Nonlinear noise analysis in nuclear magnetic resonance spectroscopy. 1D, 2D, and 3D spectra , 1983 .

[23]  L. Monnerie An experimental approach to the molecular viscoelasticity of bulk polymers by spectroscopic techniques: neutron scattering, infrared dichroism and fluorescence polarization , 1983 .

[24]  Paul C. Painter,et al.  The theory of vibrational spectroscopy and its application to polymeric materials , 1982 .

[25]  A. Bax Two-dimensional nuclear magnetic resonance in liquids , 1982 .

[26]  R. W. Snyder,et al.  Normal coordinate analysis of isotactic polystyrene: 2. The normal modes and dispersion curves of the polymer , 1981 .

[27]  D. E. Honigs,et al.  Time-Resolved Spectroscopy Of Stretched Polypropylene Films , 1981, Other Conferences.

[28]  H. Mantsch,et al.  Fourier transforms in the computation of self-deconvoluted and first-order derivative spectra of overlapped band contours , 1981 .

[29]  H. Mantsch,et al.  Noise in Fourier self-deconvolution. , 1981, Applied optics.

[30]  Douglas J. Moffatt,et al.  Fourier Self-Deconvolution: A Method for Resolving Intrinsically Overlapped Bands , 1981 .

[31]  E. Fukada,et al.  Dielectric hysteresis and rotation of dipoles in polyvinylidene fluoride , 1980 .

[32]  Kurt Wüthrich,et al.  Experimental techniques of two-dimensional correlated spectroscopy , 1980 .

[33]  Richard R. Ernst,et al.  Investigation of exchange processes by two‐dimensional NMR spectroscopy , 1979 .

[34]  J. Koenig,et al.  Orientational Measurements in Polymers Using Vibrational Spectroscopy , 1979 .

[35]  D. Y. Yoon,et al.  Orientation of crystalline dipoles in poly(vinylidene fluoride) films under electric field , 1978 .

[36]  G. Bodenhausen,et al.  Correlation of proton and carbon-13 nmr spectra by heteronuclear two-dimensional spectroscopy , 1977 .

[37]  J. Koenig,et al.  A normal vibrational analysis of isotactic polystyrene , 1977 .

[38]  Richard P. Oertel Protein conformational changes induced in human stratum corneum by organic sulfoxides: An infrared spectroscopic investigation , 1977, Biopolymers.

[39]  R. R. Ernst,et al.  Indirect detection of magnetic resonance by heteronuclear two-dimensional spectroscopy , 1977 .

[40]  R. R. Ernst,et al.  Two‐dimensional spectroscopy. Application to nuclear magnetic resonance , 1976 .

[41]  P. Painter,et al.  Fourier Transform Infrared Studies of Polymeric Materials , 1976 .

[42]  J. Koenig,et al.  Vibrational Spectra of Polypeptides , 1976 .

[43]  R. Samuels,et al.  Structured Polymer Properties , 1975 .

[44]  G. Wilkes Rheo-Optical Methods and Their Application to Polymeric Solids , 1974 .

[45]  D. Keedy,et al.  Dynamic light scattering of polyethylene. I. Introduction and experimental procedures , 1973 .

[46]  R. Stein,et al.  Change in infrared dichroism during and following high‐speed elongation of polyethylene , 1972 .

[47]  Richard R. Ernst,et al.  Magnetic resonance with stochastic excitation , 1970 .

[48]  R. Stein 1969 SPE international award paper. Rheo‐optics on two continents—an example of international cooperation in science , 1969 .

[49]  D. Keedy,et al.  Dynamic X‐Ray Diffractometer for Measuring Rheo‐Optical Behavior of Crystals in Polymer Solids , 1968 .

[50]  D. Keedy,et al.  Dynamic X-Ray Diffraction from Polyethylene , 1968 .

[51]  H. Kawai,et al.  General description of optical dichroic orientation factors for relating optical anisotropy of bulk polymer to orientation of structural units , 1967 .

[52]  T. Takenaka,et al.  Simultaneous measurements of stress and infrared dichroism on polymers , 1965 .

[53]  S. Wiberley,et al.  Introduction to infrared and Raman spectroscopy , 1965 .

[54]  H. W. Thompson Introduction to Infrared and Raman Spectroscopy. Norman B. Colthup, Lawrence H. Daly, and Stephen E. Wiberley. Academic Press, New York, 1964. xiv + 511 pp. Illus. $12 , 1964 .

[55]  R. Stein,et al.  Dynamic dichroism of dyed polymer films , 1964 .

[56]  Rudolf Zbinden,et al.  Infrared spectroscopy of high polymers , 1964 .

[57]  D. G. Legrand,et al.  Rhe‐Optical Properties of Polymers. III. Dynamic Polarized Light Scattering , 1963 .

[58]  R. Stein Optical Properties of Oriented Polystyrene , 1961 .

[59]  R. Fraser Interpretation of Infrared Dichroism in Axially Oriented Polymers , 1958 .

[60]  S. Krimm,et al.  Infrared spectra of high polymers. VI. Polystyrene , 1958 .

[61]  R. Fraser The Interpretation of Infrared Dichroism in Fibrous Protein Structures , 1953 .